JPH02201241A - Ampule liquid sampler - Google Patents

Abstract

PURPOSE:To sample an ampule liquid with a simple operation at one time from a plurality of ampules by arranging an ampule breaking chamber with a pressurizing member for breaking ampules and an ampule liquid collection chamber to compose an ampule liquid sampler. CONSTITUTION:A plurality of ampules into which ampule liquids are sampled are placed into an ampule breaking tank 17 and when a motor 4 is rotated, a plate 7 for breaking ampules lowers through a feed screw 5 to compress and break the ampules. As a result, the ampule liquid flows out down into an ampule liquid storing tank 20 through a hole 22 on a bottom of the ampule breaking tank 17 to enter a liquid reservoir 23. Thereafter, a suction nozzle 25 is inserted into the liquid reservoir 23 to sample the ampule liquid by suction into an ampule liquid collection container through a pipeline 27 by way of a three-way value 28 and a piston 31. The size of the hole 22 is such that a fragment of glass is not allowed to pass.

Description

DETAILED DESCRIPTION OF THE INVENTION (A) Industrial Application Field The present invention relates to an ampoule liquid sampling device, and particularly relates to an ampoule liquid sampling device, and in particular, a liquid sampling device that is sealed in an ampoule and stored, for example, volatile, corrosive, or hygroscopic. The present invention relates to an ampoule liquid collection device for collecting a liquid substance in an ampoule for analysis or testing of the liquid substance, that is, the ampoule liquid. The present invention also relates to an ampoule liquid collection device for collecting liquid medicine or sample sealed in an ampoule in an amount greater than the capacity of the ampoule.

(b) Prior Art Ampules are used to store, for example, liquid substances in a hermetically sealed manner, preventing contact with the outside air or Class 1. For analysis of liquid substances contained in such ampoules, the opening of the ampoule is broken, a syringe needle is inserted into the ampoule, and the substance is collected by suction.

(c) Problems to be solved by the invention However, in this way, if the ampules were broken and their contents were collected with a syringe needle, for example, To collect a large amount of ampoule liquid, for example, several tens of ampoules,
In each case, the ampoule must be broken and the sample must be collected using a syringe needle, and such repeated work requires a lot of effort and time, which is problematic.

On the other hand, automatically collecting ampoule liquid requires an ampoule holder, a blade for cutting the ampoule, a suction nozzle for sucking the ampoule liquid, and a moving device for moving the suction nozzle into and out of the ampoule. Since these members are positioned in a predetermined relationship, it is not possible to accommodate ampules of all sizes, which poses a problem.

The present invention aims to solve these conventional problems related to the collection of ampoule liquid, which involves dealing with various ampoules and requiring a lot of manual effort and time.

(d) Means for Solving the Problems The present invention aims to provide an ampoule liquid collection device that can collect ampoule liquids from a plurality of ampoules at once.

That is, the present invention provides an ampoule breaking chamber having a plurality of holes at the bottom and surrounded by a side wall, and an ampoule breaking pressurizing member provided to be movable in the vertical direction within the breaking chamber. The ampoule liquid collection device includes an ampoule liquid collection chamber located below the ampoule breaking chamber.

In the present invention, the ampoule liquid is removed by breaking the entire ampoule. For this purpose, the ampoule liquid collection device of the present invention is provided with an ampoule destruction chamber for destroying the entire ampoule. In order to preliminarily roughly separate the fragments of the broken ampoule from the ampoule liquid, the breaking chamber is provided with a pore diameter of, for example, about 2 to 5 mm at the bottom of the ampoule breaking chamber to allow rough filtration. A plurality of holes, for example a large number of holes, are provided. The bottoms of the plurality of holes can be formed by a mesh member such as a wire mesh or a perforated plate having a hole diameter of about 2 to 5 am. The bottom portion having these holes is formed of a material capable of compressive destruction of the ampoule, and is made of a material that has strength enough to withstand the pressure of compressive destruction of the ampoule, and is corrosion resistant, such as stainless steel. be done.

Below the bottom, a mesh with a finer mesh than the bottom can be provided so that the fragments of the broken ampoule can be separated as much as possible.

In the present invention, in order to compress and destroy the ampoule placed in the ampoule destruction chamber, a pressure member for ampoule destruction is provided in the ampoule destruction chamber so as to be able to reciprocate. The pressure member for breaking the ampoule is made of a material capable of compressively breaking the ampoule, and is, for example, made of a material that has strength enough to withstand the compression breaking pressure of the ampoule and is corrosion resistant. The reciprocating movement of the pressure member for breaking the ampoule is performed by a mechanical drive such as a slide drive, a fluid pressure drive such as hydraulic pressure, or the like.

In the present invention, an ampoule liquid collection chamber is provided below the ampoule breaking chamber. The ampoule liquid collection chamber can be formed integrally with the ampoule breaking chamber or can be formed separately. In any case, the ampoule liquid collection chamber is provided so as to be removable or movable from the attachment point of the pressure member for destroying the ampoule.

(E) Function The present invention constitutes an ampoule liquid collecting device by providing an ampoule breaking chamber equipped with an ampoule breaking pressure member and an ampoule liquid collection chamber, so that a plurality of ampoules from which ampoule liquid is collected is placed in the ampoule breaking chamber. A pressure member for breaking the ampoule is lowered into the ampoule breaking chamber, for example, to break the ampoule in the ampoule breaking chamber and cause the ampoule liquid to flow out. The spilled ampoule liquid is roughly filtered through holes in the bottom of the ampoule breaking chamber to separate ampoule fragments and flow into the ampoule liquid collection chamber.

The analysis sample flows into the ampoule liquid collection chamber and the collected ampoule liquid is collected by suction using, for example, a suction nozzle equipped with a filter.

(F) Example Hereinafter, an example of an embodiment of the present invention will be described with reference to the accompanying drawings, but the present invention is not limited in any way by the following explanation and exemplification.

FIG. 1 is an explanatory diagram showing one embodiment of the present invention, and is shown partially broken. FIG. 2 is a schematic side sectional view mainly showing the ampoule liquid collection part of another embodiment of the present invention.

The ampoule liquid collection device 1 includes a support frame 2. An electric motor 4 is supported on the support column 3 of the support frame 2, and a feed screw 5 is attached to the rotating shaft of the electric motor 4. The feed screw 5 is supported by bearings 6 at its upper and lower portions, and is fitted into a threaded portion 10 of an arm 9 attached to a shaft portion 8 of the ampoule breaking plate 7. The shaft part 8 of the ampoule breaking plate is attached to the guide arm 1.
It is inserted into a guide hole 12 formed in 1, and is guided by arm 9 and guide arm 11 to move upward or downward depending on the forward or reverse direction of rotation of electric motor 4. Further, when setting an ampoule in the ampoule breaking tank 17, it is placed in a standby position at an upper position.

Below the ampoule breaking plate, there is a container holding part 13.
In the example in which the container holding part 13 is provided with
It is formed by two side walls 14 and 15 facing each other, and the upper ends 16 of each side wall are formed on the mounting base of the flange portion 18 of the ampoule breaking tank 17. two side walls 14 and 1
An ampoule liquid storage tank 20 is disposed at the bottom 19 between the holes 5 and 5. Ampoule destruction tank 17 and ampoule liquid storage tank 20
are formed so that they can be placed on one side of the mounting table and taken out from either side.

In this example, the bottom 21 of the ampoule breaking tank 17 is provided with a number of holes 22 having a hole diameter of, for example, about 2-1 in order to remove glass fragments. In addition, in this example, a liquid reservoir 23 is formed at the bottom of the ampoule liquid storage tank 20 so as to protrude downward so that the ampoule liquid can be poured in one place. ing.

In this example, the ampoule liquid is taken out from the ampoule liquid storage tank 20 by the suction nozzle 25. A filter 26 is provided at the tip of the suction nozzle 25 to prevent fine glass fragments from being suctioned.

The suction nozzle 25 is connected to the pipe line 2, and the three-way valve 2
8 to a syringe 29 and an ampoule liquid collection container 30.

Since this example is configured as described above, a plurality of ampoules from which ampoule liquid is collected are placed in the ampoule breaking tank 17, the electric motor 4 is rotated in the forward direction, and the ampoule breaking plate 7 is lowered. , the ampoule liquid flows out with the compressive destruction of the eight ampoules, and flows down from the hole 22 at the bottom of the ampoule destruction tank 17 into the ampoule liquid storage tank 20 . The ampoule liquid flowing down into the ampoule liquid storage tank 20 enters the liquid reservoir 23.

When the ampoule is broken in the ampoule breaking tank 17 and the ampoule liquid flows down into the ampoule liquid storage tank 20, the suction nozzle 25 is inserted into the liquid reservoir 23 of the ampoule liquid storage tank 20 to collect the ampoule liquid by suction.

The suction collection of the ampoule liquid is performed by rotating the three-way valve 28, communicating the pipe line 27 and the syringe 29, and moving the piston 31 to the suction side. The ampoule liquid is sucked and collected into the syringe 29 via the conduit 27 by this suction operation. When the suction collection of the ampoule liquid is completed,
Switch the flow path 28' of the three-way valve 28 to open the syringe 29.
The ampoule liquid collection container 30 is brought into communication with the ampoule liquid collection container 30, and the piston 31 is moved to the discharge side to cause the ampoule liquid sucked and collected into the syringe 29 to be discharged into the ampoule liquid collection container 30.

In this example, the ampoule breaking tank and the ampoule liquid storage tank are separated from each other, but can be removably formed integrally.

FIG. 2 shows an embodiment of the ampoule liquid collecting device of the present invention in which an ampoule breaking tank and an ampoule liquid storage tank are removably formed integrally.

In FIG. 2, the ampoule liquid collection container 32 is formed of an ampoule breaking part 33 and an ampoule liquid storage part 34.
It is formed closer to the 6th side. The ampoule breaking part 33 is
In this example, the suction nozzle is provided in the ampoule liquid suction part (not shown), and It is configured to move the collection container 32 to the ampoule liquid suction section and perform suction collection of the ampoule liquid. The suction nozzle is located at the ampoule liquid suction part.
In this example, the ampoule breaking part 33 is inserted into the ampoule liquid storage part 34 from the upper opening 38 of the liquid reservoir 35.
A sieve attachment part (not shown) is formed in the beam member 41 below the bottom part 40 having holes 39, and a sieve finer than the holes 39 in the bottom part 40 is arranged to remove fine pieces of the ampoule. can be removed.

(G) Effects of the Invention In the present invention, an ampoule liquid collection device is constructed by providing an ampoule breaking chamber equipped with an ampoule breaking pressure member and an ampoule liquid collecting chamber, so that a desired amount of ampoule liquid can be collected from, for example, a plurality of ampoules. This means that the ampoule solution can be collected with a simple operation, and unlike the conventional method, the ampoule liquid can be collected from the ampoule regardless of the volume of the ampoule.

Furthermore, the apparatus of the present invention can perform simple and uniform processing operations, such as compressing and breaking the ampoule using the ampoule breaking pressure member, suctioning the ampoule liquid using the suction nozzle, and cleaning the ampoule liquid collecting device. This makes it suitable for automation and easy to incorporate into automatic equipment.

Therefore, the present invention makes it possible to automate the operation of collecting ampoule liquid, which has been difficult to automate in the past.

Furthermore, the present invention is suitable for analysis in which ampoule liquid, for example, which easily deteriorates in quality, can be automatically measured, since the ampoule liquid can be collected from the ampoule in a short period of time immediately before use. These automated measurements can be easily and easily analyzed.

[Brief explanation of the drawing]

FIG. 1 is an explanatory diagram showing one embodiment of the present invention, and is shown partially broken. FIG. 2 is a schematic side sectional view mainly showing the ampoule liquid collection part of another embodiment of the present invention. Regarding the symbols in the figure, 1 is the ampoule liquid sampling device, 2 is the support frame, 3 is the column, 4 is the electric motor, 5 is the feed screw, 6 is the bearing, F is the ampoule breaking plate, 8 is the detail, and 9 is the Arm, 10 is a screw part, 11 is a guide arm, 12 is a guide hole, 13 is a container holding part, 14 and 15 are two opposing side walls, 16 is an upper end, 17 is an ampoule breaking tank, 18 is a flange part, 19 is an arm; The bottom between the two side walls, 20 is the ampoule liquid storage tank, 21 is the bottom of the ampoule breaking tank, 22 is the hole in the bottom, 23 is the liquid reservoir, 24 is the leg, 25 is the suction nozzle, 26
is a filter, 27 is a pipe, 28 is a three-way valve, 28° is a flow path of the three-way valve, 29 is a syringe, 30 is an ampoule liquid collection container, 31 is a piston, 32 is an ampoule liquid collection container, 33 is an ampoule breaking part, 34 is an ampoule liquid storage part, 35 is a liquid reservoir, 36 is a side wall, 37 is a mouth attached to the upper end of the ampoule liquid storage part, 38 is an opening above the liquid reservoir, 39 is a hole in the ampoule breaking part, 40 is a bottom and 41 is a beam member. Figure 1

Claims (1)

[Claims] An ampoule breaking chamber having a plurality of holes at the bottom and surrounded by a side wall; a pressure member for breaking the ampoule provided so as to be movable in the vertical direction within the breaking chamber; and a lower part of the ampoule breaking chamber. An ampoule liquid collection device comprising an ampoule liquid collection chamber located at.